Sublethal mechanical trauma alters the electrochemical properties and increases aggregation of erythrocytes

Publication date: November 2018Source: Microvascular Research, Volume 120Author(s): Antony P. McNamee, Geoff D. Tansley, Michael J. SimmondsAbstractCirculation of blood depends, in part, on the ability of red blood cells (RBCs) to aggregate, disaggregate, and deform. The primary intrinsic disaggregating force of RBCs is derived from their electronegativity, which is largely determined by sialylated glycoproteins on the plasma membrane. Given supraphysiological shear exposure – even at levels below those which induce hemolysis – alters cell morphology, we hypothesized that exposure to supraphysiological and subhemolytic shear would cleave membrane-bound sialic acid, altering the electrochemical and physical properties of RBCs, and thus increase RBC aggregation.Isolated RBCs from healthy donors (n = 20) were suspended in polyvinylpyrrolidinone. Using a Poiseuille shearing system, RBC suspensions were exposed to 125 Pa for 1.5 s for three duty-cycles. Following the first and third shear duty-cycle, samples were assessed for: RBC aggregation; the ability of RBCs to aggregate independent of plasma (“aggregability”); disaggregation shear rate; membrane-bound sialic acid content, and; cell electrophoretic mobility.Initial shear exposure significantly increased RBC aggregation, aggregability, and the shear required for rouleaux dispersion. Sialic acid concentration significantly decreased on isolated RBC membranes ghosts, and increased in the supernatant following she...
Source: Microvascular Research - Category: Biochemistry Source Type: research
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